Disk-shaped upper body exercise device

ABSTRACT

A disk-shaped upper body exercise device includes: a disk-shaped body; a drag provision part groove implemented in a circular loop form having a smaller diameter than the disk-shaped body on a top of the disk-shaped body; at least one sensor installed inside or outside the disk-shaped body; a processor installed inside the disk-shaped body, and configured to check at least one of the user&#39;s upper body exercise movement, exercise number, and exercise time based on measurement information measured by the at least one sensor, and to generate upper body exercise information; a display installed on a side surface of the disk-shaped body, and configured to provide the upper body exercise information to the user; and a grip portion provided on a bottom of the disk-shaped body, and implemented to enable the user to hold the disk-shaped upper body exercise device with his or her hand.

TECHNICAL FIELD

The present invention relates to an upper body exercise device providedto enable a user to do upper body exercise by placing it on his or herhand and moving it back and forth around the body (particularly, thehead).

BACKGROUND ART

Plate turning is a joint exercise that rotates the six major joints ofour body. In particular, plate turning rotates the fingers, wrists,elbows, and shoulder joints of a person who does a plate-turningexercise, thereby providing the effect of promoting blood circulation byincreasing the body temperature of the muscles and ligaments around thejoints and widening the range of motion of the joints.

In addition, plate turning is a full-body exercise that uses the wholebody unlike general bare-handed gymnastics because it stimulates thewrists, the elbows, the shoulders, the pelvis, the knees, and theankles, and provides the effect of improving the user's jointflexibility due to the rotation of the joints and releasing the musclesthat were tight due to the whole body stretching.

In addition, plate turning increases the body temperature by about 1-2degrees immediately after exercise, thereby providing the effect ofstrengthening the immunity of a user who does exercise.

However, the plate used for the plate-turning exercise has a high riskof damage if it falls on the floor during exercise. Furthermore, if anexerciser misses the plate, there is a problem in that other people maybe injured.

Therefore, there is a need for an exercise device capable of reducingthe risk during exercise while providing the effect of a plate-turningexercise.

DISCLOSURE Technical Problem

In order to overcome the above problems, the present invention intendsto provide a disk-shaped upper body exercise device that can reduce therisk during exercise while providing the effect of a plate-turningexercise.

Technical Solution

According to an aspect of the present invention, there is provided adisk-shaped upper body exercise device including: a disk-shaped body; adrag provision part groove implemented in a circular loop form having asmaller diameter than the disk-shaped body on a top of the disk-shapedbody; at least one sensor installed inside or outside the disk-shapedbody; a processor installed inside the disk-shaped body, and configuredto check at least one of the user's upper body exercise movement,exercise number, and exercise time based on measurement informationmeasured by the at least one sensor, and to generate upper body exerciseinformation, to be provided to a user, based on results of the checking;a display installed on a side surface of the disk-shaped body, andconfigured to provide the upper body exercise information to the userunder the control of the processor; and a grip portion provided on abottom of the disk-shaped body, and implemented to enable the user tohold the disk-shaped upper body exercise device with his or her hand.

According to an embodiment, the disk-shaped upper body exercise devicemay further include a drag provision part attached to the drag provisionpart groove and configured to provide drag to the disk-shaped upper bodyexercise device.

According to an embodiment, the at least one sensor may include at leastone of an ultrasonic sensor, an acceleration sensor, a geomagneticsensor, a gyro sensor, a photo sensor, a picking sensor, a thru-beamsensor, and a waterproof ultrasonic sensor.

According to an embodiment, the disk-shaped upper body exercise devicemay further include a speaker installed on a bottom of the disk-shapedbody and configured to provide at least one of the upper body exerciseinformation and preset sound information to the user under the controlof the processor.

According to an embodiment, the processor may perform control to selectone of a plurality of exercise programs provided by the disk-shapedupper body exercise device in response to a user input, to generate amessage, providing notification that at least one of the upper bodyexercise movement, exercise number, and exercise time of the user needsto be changed, based on the selected exercise program and themeasurement information, and to provide the message to the user using atleast one of the display and the speaker.

According to an aspect of the present invention, there is provided anexercise system for providing upper body exercise information to a user,the exercise system including: a disk-shaped upper body exercise device;and an electronic device configured such that an application forreceiving upper body exercise information from the disk-shaped upperbody exercise device and recording and analyzing the upper body exerciseinformation is installed thereon; wherein the disk-shaped upper bodyexercise device including: a disk-shaped body; a drag provision partgroove implemented in a circular loop form having a smaller diameterthan the disk-shaped body on a top of the disk-shaped body; at least onesensor installed inside or outside the disk-shaped body; a processorinstalled inside the disk-shaped body, and configured to check at leastone of the user's upper body exercise movement, exercise number, andexercise time based on measurement information measured by the at leastone sensor, and to generate upper body exercise information, to beprovided to a user, based on results of the checking; a displayinstalled on a side surface of the disk-shaped body, and configured toprovide the upper body exercise information to the user under thecontrol of the processor; and a grip portion provided on a bottom of thedisk-shaped body, and implemented to enable the user to hold thedisk-shaped upper body exercise device with his or her hand.

Advantageous Effects

The disk-shaped upper body exercise device according to an embodiment ofthe present invention is implemented to enable a user to do upper bodyexercise by placing it on the user's hand and moving it back and fortharound the body (particularly, the head), thereby providing the effectof promoting blood circulation by increasing the body temperature of themuscles and ligaments around the user's joints and widening the range ofmotion of the joints.

Furthermore, the disk-shaped upper body exercise device according to anembodiment of the present invention is implemented to enable a user todo upper body exercise by placing it on the user's hand and moving itback and forth around the body (particularly, the head), therebyproviding the effect of improving the user's joint flexibility andreleasing the muscles that were tight due to the whole body stretching.

Furthermore, the disk-shaped upper body exercise device according to anembodiment of the present invention may include the device capable ofproviding drag, and the device capable of providing drag provides theeffect of enabling the disk-shaped upper body exercise device to floatand fly in the air when a user does Frisbee exercise using thedisk-shaped upper body exercise device.

Moreover, the disk-shaped upper body exercise device according to anembodiment of the present invention may include the device capable ofproviding drag, and the device capable of providing drag provides theeffect of increasing the exercise effect via air resistance when a userdoes plate-turning exercise using the disk-shaped upper body exercisedevice.

DESCRIPTION OF DRAWINGS

FIG. 1 is a view showing a disk-shaped upper body exercise deviceaccording to an embodiment of the present invention when viewed from thetop;

FIG. 2 is a view showing a drag provision part provided in a disk-shapedupper body exercise device according to an embodiment of the presentinvention;

FIG. 3 is a side view of a disk-shaped upper body exercise deviceaccording to an embodiment of the present invention when viewed from aside;

FIG. 4 is a view showing a state in which a disk-shaped upper bodyexercise device according to an embodiment of the present invention isviewed from the bottom; and

FIG. 5 is a diagram illustrating an exercise system including adisk-shaped upper body exercise device according to an embodiment of thepresent invention.

BEST MODE

Hereinafter, the present disclosure will be described with reference tothe accompanying drawings. The present disclosure may be subject tovarious changes and have various embodiments. Specific embodiments areillustrated in the drawings and related detailed descriptions are given.

However, this is not intended to limit the present disclosure tospecific embodiments, and it should be understood that the presentinvention includes all changes and/or equivalents or substitutesincluded in the spirit and scope of the present disclosure. Inconnection with the description of the drawings, like reference numeralshave been used for like components.

Terms such as “include” or “may include” that may be used in thisdisclosure indicate the presence of one or more disclosed functions,operations, or components, and do not exclude one or more additionalfunctions, operations, or components. In addition, it should beunderstood that in the present disclosure, terms such as “include” or“have” are intended to designate the presence of one or more features,numbers, steps, operations, components, parts, or combinations thereofdescribed in the specification, but do not preclude in advance thepossibility of the presence or addition of one or more other features,numbers, steps, operations, components, parts, or combinations thereof.

Terms such as “or” in this disclosure include any and all combinationsof the words listed together. For example, “A or B” may include A, mayinclude B, or may include both A and B.

In the present disclosure, terms such as “first,” “second,” etc. maymodify various components of the present disclosure, but do not limitthe components. For example, the above terms do not limit the orderand/or importance of corresponding components. The above terms may beused to distinguish one component from another. For example, a firstuser device and a second user device are both user devices and representdifferent user devices. For example, a first component may be termed asecond component, and similarly, a second component may be termed afirst component, without departing from the scope of the presentdisclosure.

It should be understood that, when a component is described as being“connected” or “coupled” to another component, it may be directlyconnected or coupled to the other component or a third component may beinterposed therebetween. In contrast, it should be understood that whena component is described as “directly connected” or “directly coupled”to another component, no other component is present therebetween.

Terms used in the present disclosure are only used to describe specificembodiments, and are not intended to limit the present disclosure.Singular expressions include plural expressions unless the contextclearly dictates otherwise.

Unless otherwise defined herein, all terms including technical orscientific terms used herein have the same meanings as commonlyunderstood by those of ordinary skill in the art to which the presentdisclosure pertains. Terms, such as those defined in commonly useddictionaries, should be interpreted as having meanings that areconsistent with their meanings in the context of the specification andrelevant art, and should not be interpreted in an idealized or overlyformal sense unless expressly so defined herein.

The present invention proposes an upper body exercise device in the formof a dish-shaped disk that can be placed on a user's hand and moved (inan elliptical shape) to back and forth around the body (particularly,the head) to exercise the upper body.

In addition, the present invention proposes an upper body exercisedevice in the form of a dish-shaped disk that enables a user to do anexchange exercise with other users.

The upper body exercise device proposed in the present invention is madeof plastic material and high-elasticity material is used in necessaryparts, so that damage can be prevented even in the event of a fall.

FIG. 1 is a view showing a disk-shaped upper body exercise deviceaccording to an embodiment of the present invention when viewed from thetop, and FIG. 2 is a view showing a drag provision part provided in adisk-shaped upper body exercise device according to an embodiment of thepresent invention.

Referring to FIGS. 1 and 2 , a disk-shaped upper body exercise device100 may include a disk-shaped body 105 and a drag provision part groove110. The drag provision part groove 110 is provided in the disk-shapedupper body exercise device 100 so that a drag provision part 120 can becoupled to the disk-shaped upper body exercise device 100.

The drag provision part groove 110 may be implemented in the form of acircular loop having a diameter smaller than that of the disk-shapedbody 105 in the top of the disk-shaped body 105.

The diameter of the disk-shaped body 105 may be implemented as “a”(e.g., about 20 cm), the width of the drag provision part groove 110 maybe implemented as “b” (e.g., 2 to 3 mm), and the width from the dragprovision part groove 110 to the edge of the disk-shaped body 105 may beimplemented as “c” (e.g., 1 to 2 mm).

In the drag provision part 120, the width of the part coupled to thedrag provision part groove 110 may be implemented as “b1” (e.g., 2 to 3mm), the height of the drag provision part 120 may be implemented as “d”(e.g., 2 to 3 cm), and the maximum width of the drag provision portionof the drag provision part 120 may be implemented as “a1” (e.g., about20 cm).

When the drag provision part 120 is coupled to the drag provision partgroove 110, the drag provision part 120 provides drag to the disk-shapedupper body exercise device 100 during a Frisbee exercise (a game inwhich a person throws or receives a round piece of plastic to and fromanother person outside) using the disk-shaped upper body exercise device100 so that the upper body exercise device 100 can float and fly in theair.

In addition, when the drag provision part 120 is coupled to the dragprovision part groove 110, the drag provision part 120 may play a roleof enhancing an exercise effect during a plate-turning exercise usingthe disk-shaped upper body exercise device 100.

According to an embodiment, when a user does an upper body exerciseusing the disk-shaped upper body exercise device 100 alone, the dragprovision part 120 may not be coupled to the disk-shaped upper bodyexercise device 100.

According to an embodiment, when the drag provision part 120 is notcoupled to the disk-shaped upper body exercise machine 100, the edge ofthe disk-shaped upper body exercise machine 100 may be implemented in acomb pattern.

FIG. 3 is a side view of a disk-shaped upper body exercise deviceaccording to an embodiment of the present invention when viewed from aside.

Referring to FIG. 3 , the disk-shaped upper body exercise device 100 mayinclude a processor 130, a battery 135, a display 140, and LED lights145.

The processor 130 may control the overall operation of the disk-shapedupper body exercise device 100, and the battery 135 may provide power tothe disk-shaped upper body exercise device 100.

The processor 130 may check the user's upper body exercisemovement/exercise number/exercise time, and/or the like using at leastone sensor provided in the disk-shaped upper body exercise device 100,and may provide information using at least one of the display 140, theLED lights 145, and the speaker 180 when information necessary for auser is generated based on the results of the checking.

According to an embodiment, the processor 130 may measure the number ofrotations/the amount of exercise/the degree of inclination during upperbody exercise using the disk-shaped upper body exercise device 100 byusing an optical sensor provided in the disk-shaped upper body exercisedevice 100.

According to another embodiment, the processor 130 may measure thenumber of rotations/the amount of exercise/the degree of inclinationduring upper body exercise using the disk-shaped upper body exercisedevice 100 by using a combination of various sensors such as anacceleration sensor, a geomagnetic sensor, a gyro sensor, and the likeprovided in the disk-shaped upper body exercise device 100.

The display 140 may display information and numerical values related tothe user's upper body exercise in numbers, letters, etc., and the LEDlights 145 may provide a visual effect that allows the disk-shaped upperbody exercise device 100 to be easily identified outdoors.

The height of the disk-shaped upper body exercise device 100 may beimplemented as “e” (e.g., 2 cm), and the deviation “f” (e.g., 1 to 2 cm)may be implemented in order to form an oval shape such that a user caneasily hold the disk-shaped upper body exercise device 100 by hand.

FIG. 4 is a view showing a state in which a disk-shaped upper bodyexercise device according to an embodiment of the present invention isviewed from the bottom.

Referring to FIG. 4 , the disk-shaped upper body exercise device 100 mayinclude an ultrasonic sensor 150, a sound effect selection button 160,an automatic button 165, manual buttons 170 and 175, a speaker 180, anda protrusion portion 190.

The ultrasonic sensor 150 may sense the movement of the disk-shapedupper body exercise device 100 when a user does his or her upper bodyexercise by placing the disk-shaped upper body exercise device 100 onhis or her hand and moving it back and forth around the body(particularly, the head).

The ultrasonic sensor 150 may measure a movement distance (usually about3 m) when a user places the disk-shaped upper body exercise device 100on the right or left hand in a room and moves it back and forth aroundthe body, and may check whether those of a preset exercise program matchthe user's movement/exercise number/exercise time.

When those of the preset exercise program do not match the user'smovement/exercise number/exercise time, the processor 130 provides theuser with information indicating that the user's movement/exercisenumber/exercise time needs to be changed/added by using at least one ofthe display 140, the LED lights 145, and the speaker 180.

When those of the preset exercise program match the user'smovement/exercise number/exercise time, the processor 130 provides theuser with information indicating that the user's movement/exercisenumber/exercise time are appropriate by using at least one of thedisplay 140, the LED lights 145, and the speaker 180.

For example, the ultrasonic sensor 150 may sense the movement of thedisk-shaped upper body exercise device 100 when the upper body exercisedevice 100 moves about 3 m back and forth (1.5 m back and 1.5 m forth)around a specific point at a height of 1.5 m to 2 m above the ground.

Although the disk-shaped upper body exercise device 100 includes onlythe ultrasonic sensor 150 in FIG. 4 , the disk-shaped upper bodyexercise device 100 may include various sensors according to animplementation.

The disk-shaped upper body exercise device 100 may further include aphoto sensor, a picking sensor, a thru-beam sensor, a waterproofultrasonic sensor, etc.

When a user presses the sound effect selection button 160 for a presettime (e.g., 1 to 2 seconds), it may be turned on and provide varioussound effects.

The sound effect selection button 160 may provide various sounds, suchas various natural sounds (e.g., water droplet sounds, natural windsounds, brook sounds, birdsongs, etc.), various musical instrumentsounds (e.g., piano key sounds, violin sounds, etc.), other sounds(e.g., bicycle sounds, whistle sounds, space sounds, etc.), according toa user's preference.

When the user presses the automatic button 165, whether the user'smovement is appropriate may be determined based on a preset actionpattern by the processor 130 when the user puts the disk-shaped upperbody exercise device 100 on the right or left hand indoors and moves itback and forth around the body.

In this case, the preset action pattern may include a movement in whichthe user moves back and forth about 3 m, a movement in which the usermoves forth by 1.5 m, and a movement in which the user moves back by 1.5m.

When the user's movement is determined to be appropriate by theprocessor 130, the user may be notified of this by using at least one ofthe display 140, the LED lights 145, and the speaker 180 according tothe number of exercises.

For example, when the user presses the automatic button 165 and theprocessor 130 determines that the user's moving exercise is appropriate,the processor 130 may perform control so that when the user succeeds in10 exercises, the LED lights 145 are turned on, the number of exercisesare shown on the display 140, and audio information about 10 successfulexercises is output through the speaker 180. Thereafter, the processor130 may perform control so that when the user succeeds in 20 exercises,the LED lights 145 are turned on, the number of exercises is shown onthe display 140, and audio information regarding 20 successful exercisesis output through the speaker 180.

The manual buttons 170 and 175 may be implemented as two on the left andright sides of the lower part of the disk-shaped upper body exercisedevice 100 so that the user can hold the disk-shaped upper body exercisedevice 100 by using the left or right palm.

The manual buttons 170 and 175 have recessed shapes so that the user canhold the disk-shaped upper body exercise device 100 with his or herhand, and may also be called grip portions installed on the disk-shapedupper body exercise device 100.

When the user presses the manual buttons 170 and 175 for a long time(e.g., about 1 to 2 seconds), the disk-shaped upper body exercise device100 is turned on. In contrast, when the user presses the manual buttons170 and 175 again for a long time (e.g., about 1 to 2 seconds), thedisk-shaped upper body exercise device 100 may be turned off.

When the user presses the manual buttons 170 and 175 once during upperbody exercise, a number may be shown on the display 140, the LED lights145 may be lit up, or the number (e.g., one, two, three, etc.) may beoutput through the speaker 180.

The manual buttons 170 and 175 are formed in recessed shapes, so thatthe user's hand can be guided to be positioned on the manual buttons 170and 175.

The speaker 180 may provide sounds selected by the sound effectselection button 160 or preset sounds under the control of the processor130.

The protrusion portion 190 refers to a portion provided in the form of aprotrusion so that the user can enhance the feeling of grip when holdingthe disk-shaped upper body exercise device 100 by hand.

FIG. 5 is a diagram illustrating an exercise system including adisk-shaped upper body exercise device according to an embodiment of thepresent invention.

Referring to FIG. 5 , the exercise system includes a disk-shaped upperbody exercise device 200 and an electronic device 210 that communicateswith the disk-shaped upper body exercise device 200 and records andanalyzes the upper body exercise information of a user according to thedisk-shaped upper body exercise device 200.

The disk-shaped upper body exercise device 200 may include a disk-shapedbody 201, a drag provision part groove 202, a drag providing part 203, aprocessor 204, at least one sensor 205, a display 206, a grip portion207, a speaker 208, and a communication unit 209.

The drag provision part groove 202 is implemented in the form of acircular loop having a smaller diameter than the disk-shaped body on thetop of the disk-shaped body 201, and the drag provision part 203 may beattached to the drag provision part groove 202 and provide drag to thedisk-shaped upper body exercise device 200.

The processor 204 may be installed inside the disk-shaped body 201, maycheck at least one of the user's upper body exercise movement, exercisenumber, and exercise time based on the measurement information measuredby the at least one sensor 205, and may generate upper body exerciseinformation, to be provided to the user, based on the results of thechecking.

According to an embodiment, the processor 204 may perform control toselect one of a plurality of exercise programs provided by thedisk-shaped upper body exercise device 200 in response to a user input,to generate a message, providing notification that at least one of theupper body exercise movement, exercise number, and exercise time of theuser needs to be changed, based on the selected exercise program and themeasurement information, and to provide the message to the user using atleast one of the display 206 and the speaker 208.

The at least one sensor 205 is installed inside or outside thedisk-shaped body 201. According to an embodiment, the at least onesensor 205 may include at least one of an ultrasonic sensor, anacceleration sensor, a geomagnetic sensor, a gyro sensor, a photosensor, a picking sensor, a thru-beam sensor, and a waterproofultrasonic sensor.

The display 206 is installed on the side surface of the disk-shaped body201, and may provide the upper body exercise information to the userunder the control of the processor 204.

The grip portion 207 is provided on the lower part of the disk-shapedbody 201, and may be implemented to enable the user to hold thedisk-shaped upper body exercise device with his or her hand.

The speaker 208 is installed on the bottom 201 of the disk-shaped body,and may provide at least one of upper body exercise information andpreset sound information to the user under the control of the processor204.

The communication unit 209 may transmit at least one of the measurementinformation measured by at least the one sensor 205 and the upper bodyexercise information generated by the processor 204 to the electronicdevice 210 under the control of the processor 204.

The electronic device 210 receives at least one of measurementinformation and upper body exercise information from the disk-shapedupper body exercise device 200, and an application 214 configured torecord and analyze at least one of the measurement information and theupper body exercise information may be installed in the electronicdevice 210.

The electronic device 210 may be a mobile terminal such as a smartphone,a cellular phone, a personal communications services phone (PCS phone),a synchronous/asynchronous International Mobile Telecommunication-2000(IMT-2000) terminal, or/and the like. In addition, it may be implementedas a tablet PC, a personal computer (PC), a notebook, a personal digitalassistant (PDA), and/or the like.

The electronic device 210 includes a control unit 211, a communicationunit 212, a database 213, and an application 214.

The control unit 211 may control the operations of the communicationunit 212, the database 213, and the application 214. The communicationunit 212 may receive information from the disk-shaped upper bodyexercise device 200, and may transmit a command of the electronic device210 to the disk-shaped upper body exercise device 200.

According to an embodiment, the electronic device 210 may transmitinformation about a recommended exercise program to the disk-shapedupper body exercise device 200 based on the user's accumulated upperbody exercise information.

The database 213 may store information received from the disk-shapedupper body exercise device 200, and may store information processedbased on the information received from the disk-shaped upper bodyexercise device 200.

The method according to the above embodiments may be written as aprogram that can be executed on a computer, and can be implemented in ageneral-purpose digital computer that operates the program using acomputer-readable storage medium. In addition, data structures, programinstructions, or data files that can be used in the above-describedembodiments of the present invention can be recorded oncomputer-readable storage media through various means. Thecomputer-readable storage media may include all types of storage devicesin which data readable by a computer system is stored.

Examples of the computer-readable storage media may include magneticmedia such as hard disks, floppy disks and magnetic tapes, optical mediasuch as CD-ROMs and DVDs, magneto-optical media such as floptical disks,and hardware devices specially configured to store and execute programinstructions, such as ROM, RAM, flash memory, etc. Furthermore, thecomputer-readable storage media may be transmission media that transmitsignals adapted to designate program instructions, data structures, andthe like. Examples of the program instructions may include not onlymachine language codes generated by a compiler but also high-levellanguage codes that can be executed by a computer using an interpreteror the like.

The embodiments disclosed in the present specification and theaccompanying drawings are only presented as specific examples to easilydescribe and help to understand the content of the present disclosure,and are not intended to limit the scope of the present disclosure.Therefore, the scope of the present disclosure should be construed asincluding all changes or modified forms derived based on the technicalspirit of the present disclosure in addition to the embodimentsdisclosed herein.

INDUSTRIAL APPLICABILITY

The present invention can be utilized in various exercise equipment anddevice technical fields.

1. A disk-shaped upper body exercise device comprising: a disk-shapedbody; a drag provision part groove implemented in a circular loop formhaving a smaller diameter than the disk-shaped body on a top of thedisk-shaped body; at least one sensor installed inside or outside thedisk-shaped body; a processor installed inside the disk-shaped body, andconfigured to check at least one of the user's upper body exercisemovement, exercise number, and exercise time based on measurementinformation measured by the at least one sensor, and to generate upperbody exercise information, to be provided to a user, based on results ofthe checking; a display installed on a side surface of the disk-shapedbody, and configured to provide the upper body exercise information tothe user under the control of the processor; and a grip portion providedon a bottom of the disk-shaped body, and implemented to enable the userto hold the disk-shaped upper body exercise device with his or her hand.2. The disk-shaped upper body exercise device of claim 1, furthercomprising a drag provision part attached to the drag provision partgroove and configured to provide drag to the disk-shaped upper bodyexercise device.
 3. The disk-shaped upper body exercise device of claim1, wherein the at least one sensor comprises at least one of anultrasonic sensor, an acceleration sensor, a geomagnetic sensor, a gyrosensor, a photo sensor, a picking sensor, a thru-beam sensor, and awaterproof ultrasonic sensor.
 4. The disk-shaped upper body exercisedevice of claim 1, further comprising a speaker installed on a bottom ofthe disk-shaped body and configured to provide at least one of the upperbody exercise information and preset sound information to the user underthe control of the processor.
 5. The disk-shaped upper body exercisedevice of claim 4, wherein the processor performs control to select oneof a plurality of exercise programs provided by the disk-shaped upperbody exercise device in response to a user input, to generate a message,providing notification that at least one of the upper body exercisemovement, exercise number, and exercise time of the user needs to bechanged, based on the selected exercise program and the measurementinformation, and to provide the message to the user using at least oneof the display and the speaker.
 6. An exercise system for providingupper body exercise information to a user, the exercise systemcomprising: a disk-shaped upper body exercise device; and an electronicdevice configured such that an application for receiving upper bodyexercise information from the disk-shaped upper body exercise device andrecording and analyzing the upper body exercise information is installedthereon; wherein the disk-shaped upper body exercise device comprising:a disk-shaped body; a drag provision part groove implemented in acircular loop form having a smaller diameter than the disk-shaped bodyon a top of the disk-shaped body; at least one sensor installed insideor outside the disk-shaped body; a processor installed inside thedisk-shaped body, and configured to check at least one of the user'supper body exercise movement, exercise number, and exercise time basedon measurement information measured by the at least one sensor, and togenerate upper body exercise information, to be provided to a user,based on results of the checking; a display installed on a side surfaceof the disk-shaped body, and configured to provide the upper bodyexercise information to the user under the control of the processor; anda grip portion provided on a bottom of the disk-shaped body, andimplemented to enable the user to hold the disk-shaped upper bodyexercise device with his or her hand.
 7. The disk-shaped upper bodyexercise device of claim 6, further comprising a drag provision partattached to the drag provision part groove and configured to providedrag to the disk-shaped upper body exercise device.
 8. The disk-shapedupper body exercise device of claim 6, wherein the at least one sensorcomprises at least one of an ultrasonic sensor, an acceleration sensor,a geomagnetic sensor, a gyro sensor, a photo sensor, a picking sensor, athru-beam sensor, and a waterproof ultrasonic sensor.
 9. The disk-shapedupper body exercise device of claim 6, further comprising a speakerinstalled on a bottom of the disk-shaped body and configured to provideat least one of the upper body exercise information and preset soundinformation to the user under the control of the processor.
 10. Thedisk-shaped upper body exercise device of claim 9, wherein the processorperforms control to select one of a plurality of exercise programsprovided by the disk-shaped upper body exercise device in response to auser input, to generate a message, providing notification that at leastone of the upper body exercise movement, exercise number, and exercisetime of the user needs to be changed, based on the selected exerciseprogram and the measurement information, and to provide the message tothe user using at least one of the display and the speaker.